Method for treatment of parkinson&#39;s disease

ABSTRACT

Disclosed is a method for the treatment of a neurological or movement disorder, e.g., Parkinson&#39;s disease, in an individual in need thereof, by parenteral administration of levodopa and a dopa decarboxylase inhibitor (DDCI), such as carbidopa, benserazide or any combination thereof, concomitantly with oral administration of levodopa, a DDCI, such as carbidopa, benserazide, or any combination thereof.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of the U.S. patent application Ser. No. 17/334,554, filed May 28, 2021, which claims the benefit of and priority to U.S. Provisional Patent Application No. 63/114,688, filed Nov. 17, 2020, the disclosure of which is incorporated by reference herein in its entirety.

TECHNICAL FIELD

The present invention provides a method for treatment of neurological or movement disorders such as Parkinson's disease by parenteral administration of levodopa or prodrug thereof and a dopa decarboxylase inhibitor (DDCI) or prodrug thereof, such as carbidopa, benserazide, or any combination thereof, concomitantly with oral administration of levodopa or prodrug thereof, a dopa decarboxylase inhibitor (DDCI) or prodrug thereof, such as carbidopa, benserazide, or any combination thereof.

BACKGROUND

Parkinson's disease is a degenerative condition characterized by reduced concentration of the neurotransmitter dopamine in the brain. Levodopa (L-dopa or L-3,4-dihydroxyphenylalanine) is an immediate metabolic precursor of dopamine that, unlike dopamine, is able to cross the blood-brain barrier, and is most commonly used for restoring the dopamine concentration in the brain. For the past 40 years, levodopa has remained the most effective therapy for the treatment of Parkinson's disease.

However, levodopa has a short half-life in plasma that, even under best common current standard of care, results in pulsatile dopaminergic stimulation. Long-term therapy is therefore complicated by motor fluctuations and dyskinesia that can represent a source of significant disability for certain patients. A therapeutic strategy that could ultimately deliver levodopa/dopamine to the brain in a more continuous and physiologic manner would provide the benefits of standard levodopa with reduced motor complications and is much needed by patients suffering from Parkinson's disease and other neurological or movement disorders.

SUMMARY OF INVENTION

Provided herein, inter alia, are methods and pharmaceutical compositions for the treatment of a neurological or movement disorder comprising parenteral administration of levodopa, prodrugs or salts thereof (e.g., pharmaceutically acceptable prodrugs salts thereof), and compositions comprising the same (e.g., pharmaceutically acceptable compositions, for example, liquid pharmaceutical compositions) and a dopa decarboxylase inhibitor (DDCI), prodrugs or salts thereof (e.g., pharmaceutically acceptable prodrugs or salts thereof), and compositions comprising the same (e.g., pharmaceutically acceptable compositions, for example, liquid pharmaceutical compositions) concomitant with oral administration of an active agent selected from the group consisting of levodopa, a levodopa salt, a levodopa prodrug, a dopa decarboxylase inhibitor (DDCI), prodrugs or salts thereof (e.g., pharmaceutically acceptable salts thereof), and compositions comprising the same (e.g., pharmaceutically acceptable compositions, for example, liquid pharmaceutical compositions). Also disclosed is a kit for the administration of the described method and treatment regimens for administration of the described method specified by time course and amount of pharmaceutical composition.

Embodiments of the invention are directed to a method for treatment of Parkinson's disease in a patient in need thereof, said method comprising:

-   -   subcutaneously administering to the patient, over a subcutaneous         infusion time course of at least about 24 hours, a         pharmaceutically acceptable liquid composition comprising         levodopa and carbidopa in an amount to deliver about 720 mg of         levodopa and about 90 mg of carbidopa to the patient over the         time course of the at least about 24 hours; and     -   orally administering to the patient, before or during the         subcutaneous infusion time course, one or more immediate release         tablet or capsule comprising 100 mg levodopa.

According to some embodiments, the pharmaceutically acceptable liquid composition further comprises arginine. According to some embodiments, the pharmaceutically acceptable liquid composition further comprises at least one antioxidant.

According to some embodiments, the immediate release tablet or capsule further comprises carbidopa.

According to some embodiments, upon the subcutaneous administration and the oral administration, the plasma levodopa area under the curve (AUC) from time 0 to the end of the infusion time of the patient is higher as compared to the combination of i) a plasma levodopa AUC from time 0 to the end of the infusion time when a patient is subcutaneously administered over at least about 24 hours the pharmaceutically acceptable liquid composition alone; and ii) a plasma levodopa AUC of a patient administered with the oral levodopa alone.

Further embodiments of the invention are directed to a method for treatment of Parkinson's disease in a patient in need thereof, said method comprising:

-   -   subcutaneously administering to the patient, over a subcutaneous         infusion time course of at least about 24 hours or more, a first         pharmaceutically acceptable liquid composition comprising:         levodopa, carbidopa, arginine, and an antioxidant, in an amount         to deliver about 720 mg of levodopa and about 90 mg of carbidopa         to the patient over the course of at least about 24 hours; and     -   orally administering to the patient, before or during the         subcutaneous infusion time course, at least one oral dosage form         comprising levodopa.

According to some embodiments, the oral dosage form includes one of: 50 mg levodopa, 75 mg levodopa, 95 mg levodopa, 100 mg levodopa, 125 mg levodopa, 145 mg levodopa, 150 mg levodopa, 195 mg levodopa, 200 mg levodopa, 245 mg levodopa, or 250 mg levodopa.

Further embodiments of the invention are directed to a method for treatment of Parkinson's disease in a patient currently being administered levodopa and carbidopa in the form of oral immediate release levodopa and carbidopa alone, and in need of further treatment, said method comprising:

-   -   subcutaneously administering to the patient, over a subcutaneous         infusion time course of 24 hours a first pharmaceutically         acceptable liquid composition comprising: levodopa, carbidopa,         arginine, and an antioxidant, in an amount to deliver about 720         mg of levodopa and about 90 mg of carbidopa to the patient over         the course of at least about 24 hours;     -   orally administering to the patient, before or during the         subcutaneous infusion time course, at least one tablet or         capsule comprising 100 mg levodopa and 25 mg carbidopa daily.

Disclosed herein is a method for treatment of a neurological or movement disorder in a patient in need thereof, said method comprising: parenterally administering to the patient a first pharmaceutical composition comprising: a) levodopa, a levodopa salt, a levodopa prodrug, or any combination thereof; and b) a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug, or any combination thereof; and, concomitantly, orally administering to the patient a second pharmaceutical composition comprising an active agent selected from the group consisting of levodopa, a levodopa salt, a levodopa prodrug, a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug, and any combination thereof.

In some embodiments, the method described herein includes as the DDCI carbidopa, benserazide, or any combination thereof.

In some embodiments, the method described herein includes the same DDCI in the first pharmaceutical composition as the DDCI in the second pharmaceutical composition.

In some embodiments, the method described herein includes a different DDCI in the first pharmaceutical composition as the DDCI in the second pharmaceutical composition

In some embodiments, the method described herein includes as the second pharmaceutical composition levodopa and a DDCI.

In some embodiments, the method described herein includes the DDCI carbidopa.

In some embodiments, the method described herein includes subcutaneous, transdermal, intradermal, intravenous, intramuscular, intratracheal, intranasal, intrathecal, intragastric or intraduodenal administration of the first pharmaceutical composition.

In some embodiments, the method described herein includes subcutaneous administration of the first pharmaceutical composition.

In some embodiments, the method described herein includes the administration of the pharmaceutical composition to the patient in need thereof via one or more sites.

In some embodiments, the neurological or movement disorder pertaining to the method described herein includes Parkinson's disease; secondary parkinsonism, such as drug-induced secondary parkinsonism, neuroleptic induced parkinsonism, postencephalitic parkinsonism, and vascular parkinsonism; motor fluctuations; neurodegenerative disorders; dyskinesia; reduced dopamine levels in the brain; levodopa induced dyskinesia; rapid eye movement sleep behavior disorder (RBD); dystonia; morning akinesia; tremor symptoms, such as essential tremor and drug-induced tremor; myoclonus; chorea, such as drug induced chorea; tics, such as drug induced tics and organic tics; drug induced movement disorder; drug induced akathisia; restless legs syndrome (RLS); stiff-man syndrome; benign shuddering attacks; malignant neuroleptic syndrome; Huntington's disease; Shy-Drager syndrome; brain injury induced conditions, such as carbon monoxide or manganese intoxication; or any combination thereof; for example, provided herein are methods of treating patients suffering from includes Parkinson's disease.

Generally, physicians assess the severity of Parkinson's disease patients according to objective and subjective signs and symptoms, using, e.g., various scales, and prescribe levodopa dosing administration accordingly. One of the well-known and widely used scales for diagnosing and scaling the severity of Parkinson's disease is the Unified Parkinson's Disease Rating Scale (UPDRS). Modifications of the UPDRS may also be used to classify Parkinson's disease patients. Another known method for measuring the severity of Parkinson's disease is according to the Hoehn and Yahr (H&Y) stages, which includes a scale of 5 stages, in which stages 1-2 are considered to be mild or early-stage Parkinson's disease patients, stage 3 is considered to be moderate or mid-stage Parkinson's disease patients, and stages 4-5 are considered to be advanced Parkinson's disease patients. The daily levodopa dose may be defined and changed by the physician from time to time, according to, e.g., clinical findings as well as “trial and error” methods, according to the particular patient's condition, the response of that patient to the treatment, and the like. Further, the patient may be administered a different daily dose on different days, depending on signs and symptoms, wherein the range of the administered daily dose may be set by the physician, thereby allowing the patient flexibility in treatment. It is noted that physician generally refer to signs as being objective measure and to symptoms as being subjective ones.

According to some embodiments, provided herein are methods of treating advance-stage Parkinson's disease patients. According to some embodiments, provided herein are methods of treating advanced stage and/or moderate Parkinson's disease patients. According to some embodiments, provided herein are methods for treating patients with motor fluctuations. According to some embodiments, provided herein are methods for treating Parkinson's disease patients with motor fluctuations.

According to some embodiments, provided herein are methods of treating Parkinson's disease patients who require a dose of above about 300 mg levodopa/day, above about 400 mg levodopa/day, above about 500 mg levodopa/day, above about 600 mg levodopa/day, above about 700 mg levodopa/day, above about 800 mg levodopa/day, above about 900 mg levodopa/day, above about 1000 mg levodopa/day.

According to some embodiments, provided herein are methods of treating Parkinson's disease patients requiring an elevated dose of levodopa at a particular timepoint, e.g., in the morning, e.g., towards the end (about the last hour) of a low activity/night period, e.g., in the beginning (about the first hour) of a high activity/day period. For instance, according to some embodiments, there may be a certain rate for high activity/day hours and a different rate for low activity/night hours, wherein an elevated dose of levodopa may be administered towards the end of the low activity/night hours, at the end of the low activity/night hours, at the beginning of the high activity/day hours, and the like. Such an elevated dose may be provided by the administration of an oral dose of the second pharmaceutical composition, e.g., at the times referred to above, provided concomitantly with the substantially continuous first pharmaceutical composition.

According to some embodiments, provided herein are methods of treating patients suffering from Parkinson's disease for a period of more than about 4 years, more than about 5 years, more than about 6 years, more than about 7 years, more than about 8 years, more than about 9 years, or more than about 10 years.

According to some embodiments, provided herein are methods of treating Parkinson's disease patients suffering from at least 1 hour, at least 1.5 hours, at least 2 hours, at least 2.5 hours, at least 3 hours, of “off time” per day, wherein “off time” refers to the recurrence of Parkinson's symptoms between medication doses.

In some embodiments, the method described herein includes substantial continuous administration of the first pharmaceutical composition.

In some embodiments, the method described herein includes administration of the second pharmaceutical composition 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 times a day.

In some embodiments, the method described herein includes administration of the second pharmaceutical composition when symptoms from said neurological or movement disorder require said administration.

In some embodiments, the method described herein includes administration of the second pharmaceutical composition at predefined times, predefined intervals, or both.

In some embodiments, the method described herein includes administration of the second pharmaceutical composition more than once, wherein the administered dose is the same at all administrations.

In some embodiments, the method described herein includes administration of the second pharmaceutical composition more than once, wherein the administered dose differs in at least two administrations.

In some embodiments, the method described herein includes administration of the second pharmaceutical composition in a dose of between about 25 mg and about 400 mg levodopa or a salt or prodrug thereof, in each administration.

In some embodiments, the method described herein includes as the first pharmaceutical composition levodopa, carbidopa and arginine or any salt or prodrug thereof.

In some embodiments, the method described herein includes as the first pharmaceutical composition levodopa, carbidopa, arginine, or any salt or prodrug thereof, and at least one antioxidant.

In some embodiments, the method described herein includes as the first pharmaceutical composition levodopa, carbidopa, arginine, or any salt or prodrug thereof, and at least two antioxidants.

In some embodiments, the method described herein includes as the first pharmaceutical composition a composition that comprises levodopa, carbidopa, or any salt or prodrug thereof, and a base selected from the group consisting of arginine, NaOH, tris(hydroxymethyl)aminomethane (TRIS), and any combination thereof.

In some embodiments, the method described herein includes as the first pharmaceutical composition a composition with a pH in the range of between about 6 to about 10, in the range of between about 8 to about 10, in the range of between about 9 to about 10, in the range of between about 9.1 to about 9.8, or about 9.5.

In some embodiments, the method described herein includes as the first pharmaceutical composition a composition that comprises between about 1% w/v and about 40% w/v, between about 1% w/v and about 20% w/v, between about 1% w/v and about 10% w/v, between about 2% w/v and about 8% w/v, between about 4% w/v and about 8% w/v, between about 5% w/v and about 7% w/v, or about 6% w/v of levodopa, a levodopa prodrug, a levodopa salt, or any combination thereof.

In some embodiments, the method described herein includes as the first pharmaceutical composition a composition that comprises between about 0.5% w/v and about 10% w/v, between about 0.5% w/v and about 6% w/v, between about 0.5% w/v and about 4% w/v, between about 0.5% w/v and about 2% w/v, between about 0.5% w/v and about 1% w/v, about 0.75% w/v of carbidopa, a carbidopa salt, a carbidopa prodrug, or any combination thereof.

In some embodiments, the method described herein includes the antioxidant that is selected from the group consisting of ascorbic acid or a salt thereof, a cysteine, such as N-acetyl cystein, a bisulfite or a salt thereof, glutathione, a tyrosinase inhibitor, a bivalent cation, butylated hydroxy toluene (BHT), beta hydroxy acid (BHA) tocopherol, gentisic acid, tocopherol, tocopherol derivative, thioglycerol, and any combination thereof.

In some embodiments, the method described herein includes as the first pharmaceutical composition a composition that comprises between about 0.05% w/v and about 2.0% w/v, between about 0.5% w/v and about 1.5% w/v, about 0.75% w/v, about 0.9% w/v, about 1.0% w/v, about 1.1% w/v, about 1.25% w/v, of an antioxidant or a combination of antioxidants.

In some embodiments, the method described herein includes as the first pharmaceutical composition a composition that comprises between about 5% w/v and about 30% w/v, between about 10% w/v and 20% w/v, between about 12.5% w/v and 17.5% w/v, about 15% w/v, or about 15.2% w/v base.

In some embodiments, the method described herein includes administration of the first pharmaceutical composition via one or two sites.

In some embodiments, the method described herein includes administration of the first pharmaceutical composition at a volume of between about 1 ml to about 30 ml per site per day, between about 2 ml to about 20 ml per site per day, between about 3 ml to about 10 ml per site per day, between about 5 ml to about 7 ml per site per day, or about 6 ml per site per day.

Also disclosed herein is a first pharmaceutical composition comprising: levodopa, a levodopa salt, a levodopa prodrug, or any combination thereof; and a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug, or any combination thereof; and, a second pharmaceutical composition comprising: levodopa, a levodopa salt, a levodopa prodrug, a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug; or any combination thereof, for use as a combination in the treatment of a neurological or movement disorder, wherein the first pharmaceutical composition is formulated as a parenteral composition and the second pharmaceutical composition is formulated as an oral composition.

Also disclosed herein is a kit comprising: a first pharmaceutical composition in parenteral form comprising: levodopa, a levodopa salt, a levodopa prodrug, or any combination thereof; and a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug, or any combination thereof; a second pharmaceutical composition in oral form comprising: levodopa, a levodopa salt, a levodopa prodrug, a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug; or any combination thereof; and instructions for the concomitant administration of the first pharmaceutical composition and the second pharmaceutical composition for the treatment of a neurological or movement disorder.

Disclosed herein, in other embodiments, is a method for treatment of a neurological or movement disorder in a patient in need thereof, said method comprising: subcutaneously administering to the patient, over a subcutaneous infusion time course of about 7 to about 10 hours or more (e.g., a time course of about 8 hours), a first pharmaceutically acceptable liquid composition comprising levodopa and carbidopa in an amount to deliver about 100 to 200 mg of levodopa and about 12 to about 50 mg of carbidopa to the patient; and orally administering to the patient, before or during the subcutaneous infusion time course, an immediate release tablet or capsule comprising levodopa and carbidopa. Contemplated immediate release tablets may include for example 50 mg, 75 mg, 100 mg, 125 mg or 150 mg levodopa and/or may include 2.5 mg, 18.57 mg, 25 mg, 31.25 mg, 37.5 mg or 50 mg carbidopa. In some embodiments, the method described herein includes an initial and/or concurrent oral administration of the immediate release tablet or capsule with the start of the infusion time course, for example, oral administration of the immediate release tablet or capsule may occur at substantially the same time the infusion administration begins, and/or about 1, 2, 3, 4, or 5 hours after the start of the infusion time course (e.g., at about 0 hours or about 4 hours after the start of the infusion time course), and/or about 1, 2, 3, 4, or 5 hours before the start of the infusion time course (e.g., at about 0 hours or about 4 hours before the start of the infusion time course).

In some embodiments, a method described herein includes the immediate release tablet or capsule that comprises 100 mg levodopa and 25 mg carbidopa.

Methods described herein may include subcutaneous administration of the first pharmaceutically acceptable liquid composition that comprises levodopa and carbidopa in an amount to deliver about 140 to 170 mg of levodopa and about 16 to about 24 mg of carbidopa to the patient. Contemplated first pharmaceutically acceptable liquid composition may include a liquid composition that comprises about 6% by weight levodopa, about 0.75% by weight carbidopa, and about 10% to about 20% by weight arginine.

For example, a method described herein may include the concomitant subcutaneous administration of the first composition and the oral administration of the tablet or capsule, wherein the patient's levodopa area under the curve (AUC) from time 0 to the end of the infusion time is higher as compared to the combination of a patient's levodopa AUC from time 0 to the end of the infusion time of a patient who is subcutaneously administered the first composition alone and a patient's levodopa AUC when a tablet or capsule is administered alone, wherein the amount of levodopa administered concomitantly subcutaneously and orally is about the same as the combined amount of the levodopa subcutaneously alone and orally administered alone.

Also disclosed herein is a method for treatment of a neurological or movement disorder in a patient in need thereof, said method comprising: subcutaneously administering to the patient, over a subcutaneous infusion time course of about 7 to about 10 hours or more, a first pharmaceutically acceptable liquid composition comprising about 6% by weight levodopa and about 0.75% by weight carbidopa to the patient; and orally administering to the patient, before or during the subcutaneous infusion time course, an immediate release tablet or capsule comprising 50 mg, 75 mg, 100 mg, 125 mg, 150 mg, 200 mg, or 250 mg levodopa, and wherein the immediate release tablet or capsule optionally further comprises carbidopa.

Also disclosed herein is a method for treatment of a neurological or movement disorder in a patient in need thereof, said method comprising: subcutaneously administering to the patient, over a subcutaneous infusion time course of about 24 hours or more, a first pharmaceutically acceptable liquid composition comprising levodopa and carbidopa in an amount to deliver about 720 mg of levodopa and about 90 mg of carbidopa to the patient over the course of about 24 hours; and orally administering to the patient, before or during the subcutaneous infusion time course, a tablet or capsule, e.g., an immediate release or modified release, such as an extended release, tablet or capsule, comprising levodopa and carbidopa.

In some embodiments, the method disclosed herein includes administration of the subcutaneous infusion over the course of about 18 hours at a high activity rate and over the course of about 6 hours at a low activity rate, wherein about 691.2 mg levodopa and about 86.4 mg carbidopa is administered over the course of the high activity 18 hours and about 28.8 mg levodopa and 3.6 mg carbidopa is administered over the course of the low activity 6 hours.

According to some embodiments, the tablet or capsule is orally administered substantially concurrently with the start of the infusion time course. The tablet or capsule may be administered during the infusion at predefined intervals, or when desired or required, based on feedback, e.g., for the patient, caregiver, physician, sensors, and the like. The intervals at which the tablet or capsule are administered may be substantially the same, or different from one another. According to some embodiments, a tablet or capsule is orally administered about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 or 12 hours after the start of the infusion time course, wherein any number of tablets or capsules may be administered, as detailed herein. According to some embodiments, the tablet or capsule comprises 100 mg levodopa and 25 mg carbidopa.

According to some embodiments, the first pharmaceutically acceptable liquid composition, which is administered according to the method of the invention for 24 hours or more, comprises about 6% by weight levodopa, about 0.75% by weight carbidopa, and about 10% to about 20% by weight arginine.

According to some embodiments, whether the first pharmaceutically acceptable liquid composition is administered according to the method of the invention for 24 hours or more, concomitantly with the oral administration of a tablet or capsule, as detailed herein, the patient's levodopa area under the curve (AUC) from time 0 to the end of the infusion time is higher than that compared to the combination of a patient's levodopa AUC from time 0 to the end of the infusion time when a patient is subcutaneously administered the first composition alone together with a patient's levodopa AUC when a tablet or capsule is administered alone, and when the amount of levodopa administered concomitantly subcutaneously and orally is about the same as the combined amount of the levodopa subcutaneously alone and orally administered alone.

DETAILED DESCRIPTION OF THE INVENTION

The features and other details of the disclosure will now be more particularly described. Certain terms employed in the specification, examples, and appended claims are collected here. These definitions should be read in light of the remainder of the disclosure and understood as by a person of skill in the art. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by a person of ordinary skill in the art.

The terms “treat,” “treatment,” “treating,” and the like are used herein to generally refer to obtaining a desired pharmacological and/or physiological effect. The effect may be therapeutic in terms of partially or completely curing a disease and/or adverse effect attributed to the disease. The term “treatment” as used herein covers any treatment of a disease in a mammal, particularly a human, and includes: (a) inhibiting the disease, i.e., preventing the disease from increasing in severity or scope; (b) relieving the disease, i.e., causing partial or complete amelioration of the disease; or (c) preventing relapse of the disease, i.e., preventing the disease from returning to an active state following previous successful treatment of symptoms of the disease or treatment of the disease.

“Preventing” includes delaying the onset of clinical symptoms, complications, or biochemical indicia of the state, disorder, disease, or condition developing in a subject that may be afflicted with or predisposed to the state, disorder, disease, or condition but does not yet experience or display clinical or subclinical symptoms of the state, disorder, disease, or condition. “Preventing” includes prophylactically treating a state, disorder, disease, or condition in, or developing in, a subject, including prophylactically treating clinical symptoms, complications, or biochemical indicia of the state, disorder, disease, or condition in or developing in a subject.

The term “pharmaceutically acceptable carrier” or “pharmaceutically acceptable excipient” as used herein interchangeably refer to any and all solvents, dispersion media, coatings, isotonic and absorption delaying agents, and the like, that are compatible with pharmaceutical administration.

The terms “pharmaceutical composition” and “pharmaceutical formulation” as used herein refer to a composition or formulation comprising at least one biologically active compound, for example, levodopa or carbidopa, or a pharmaceutically acceptable salt thereof or a prodrug thereof, formulated together with one or more pharmaceutically acceptable excipients.

The term “pharmaceutically acceptable salt(s)” as used herein refers to salts of acidic or basic groups that may be formed with the conjugates used in the compositions disclosed herein.

“Individual,” “patient,” or “subject” are used interchangeably and include any animal, including mammals, mice, rats, other rodents, rabbits, dogs, cats, swine, cattle, sheep, horses, or non-human primates, and humans. In some embodiments, the mammal treated in the methods of the invention is a human suffering from neurodegenerative condition, such as Parkinson's disease.

The term “about”, as used herein, unless specifically mentioned otherwise, or unless a person skilled in the art would have understood otherwise, is considered to cover a range of ±10% of the listed value(s). It is further noted that any value provided may also be considered to cover a range of ±10% of that value, even without the use of the term “about”. This includes the values in the examples section, which may vary according to the utensils and machinery used, the purity of the compounds, etc.

The term “liquid” as used herein, unless specifically mentioned otherwise, or unless a person skilled in the art would have understood otherwise, refers to any type of fluid, including gels, aqueous and non-aqueous compositions, and the like.

The term “concomitant” as used herein, unless specifically mentioned otherwise, or unless a person skilled in the art would have understood otherwise, refers to any type of combined administration of two or more active ingredients, in the same composition, as well as the administration of those active ingredients at the same time, in separate compositions, as well as administering the two or more active ingredients sequentially, consecutively, on the same day, with a predefined period of time separating the administration of the active ingredients from one another, and the like. The term “concomitant” may further be used herein to refer to any type of combined administration of two separate pharmaceutical compositions, wherein each composition may be administered in a different administration route, at different time intervals, doses, etc. For examples, as detailed herein, one composition may be administered parenterally, e.g., subcutaneously, substantially continuously, while a second composition, administered concomitantly with the first, by oral administration, in a non-continuous manner Further, the concomitant administration of two or more separate compositions may be dependent or independent from one another.

The terms “continuously” and “substantially continuously” as used herein, unless specifically mentioned otherwise, or unless a person skilled in the art would have understood otherwise, refer to a period of time during which a composition is administered over the entire period of time, with intermissions of less than about 24 hours, about 12 hours, about five hours, about three hours, about one hour, about 30 minutes, about 15 minutes, about five minutes or about one minute. The period of time during which a composition is administered may be at least about six hours, about eight hours, about 12 hours, about 15 hours, about 18 hours, about 21 hours, about 24 hours, three days, seven days, two weeks, a month, three months, six months, a year, two years, three years, five years, ten years, etc.

The term “physiologically acceptable pH value” and the like, as used herein, unless specifically mentioned otherwise, or unless a person skilled in the art would have understood otherwise, refers to pH values in the range of between about 4.5 to about 10. It is further noted that when pH values are provided, including in the examples, the values may be in the range of about ±0.1 and/or ±10% of the listed value(s), such that if the measured pH is 8.1, the same formulation may be prepared to provide a pH of about 8.0 or 8.2. Such differences may be due to temperature changes, various measuring devices, etc.

A neurological disorder is a disorder of the body's nervous system, and the term “movement disorder” as used herein refers to a nervous system condition that causes abnormal voluntary or involuntary movements, or slow, reduced movements. According to some embodiments, the neurological or movement disorder is Parkinson's disease; secondary parkinsonism, such as drug-induced secondary parkinsonism, neuroleptic induced parkinsonism, postencephalitic parkinsonism, and vascular parkinsonism; motor fluctuations; neurodegenerative disorders; dyskinesia; reduced dopamine levels in the brain; levodopa induced dyskinesia; rapid eye movement sleep behavior disorder (RBD); dystonia; morning akinesia; tremor symptoms, such as essential tremor and drug-induced tremor; myoclonus; chorea, such as drug induced chorea; tics, such as drug induced tics and organic tics; drug induced movement disorder; drug induced akathisia; restless legs syndrome (RLS); stiff-man syndrome; benign shuddering attacks; malignant neuroleptic syndrome; Huntington's disease; Shy-Drager syndrome; brain injury induced conditions, such as carbon monoxide or manganese intoxication; or any combination thereof.

The term “dopa decarboxylase inhibitor” as used herein refers to an agent capable of inhibiting the peripheral metabolism of levodopa to dopamine by aromatic L-amino acid decarboxylase, such as carbidopa and benserazide.

Embodiments of the invention are directed to a method for treatment of a neurological or movement disorder, such as Parkinson's disease, in a patient in need thereof, wherein the method comprises:

-   -   parenterally administering a first pharmaceutical composition         comprising:         -   levodopa, a levodopa salt, a levodopa prodrug, or any             combination thereof; and         -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI             prodrug, or any combination thereof;             and, concomitantly,     -   orally administering a second pharmaceutical composition         comprising:         -   levodopa, a levodopa salt, a levodopa prodrug;         -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI             prodrug; or         -   any combination thereof.

According to some embodiments, the concomitant administration of the first pharmaceutical composition and the second pharmaceutical composition provides a synergistic effect, such that the levodopa blood levels obtained by the concomitant administration are higher than the expected additive effect when providing the first pharmaceutical composition and the second pharmaceutical composition non-concomitantly. According to some embodiments, the synergism between the first and second pharmaceutical compositions provides an elevation of between about 5% and about 50% in the levodopa blood levels, in comparison to the expected additive values. According to some embodiments, the synergism between the first and second pharmaceutical compositions provides an elevation of between about 10% and 40% in the levodopa blood levels, between about 15% and 35% in the levodopa blood levels, between about 20% and 40 in the levodopa blood levels, between about 25% and 35% in the levodopa blood levels, or about 30% in the levodopa blood levels, in comparison to the expected additive values.

According to some embodiments, the first pharmaceutical composition comprises levodopa and carbidopa. According to some embodiments, the second pharmaceutical composition comprises levodopa and carbidopa. According to some embodiments, the second pharmaceutical composition comprises only levodopa.

According to some embodiments, the first pharmaceutical composition and/or the second pharmaceutical composition comprise (1) levodopa, a levodopa salt, and/or a levodopa prodrug and/or (2) carbidopa, a carbidopa salt and/or a carbidopa prodrug. According to some embodiments the levodopa prodrug is any of the prodrugs disclosed in PCT/IL2020/050960 or US 63/159,236, which are incorporated herein, in their entirety, by reference. According to some embodiments, the carbidopa prodrug is any prodrug disclosed

According to some embodiments, the DDCI is carbidopa, a carbidopa prodrug, a carbidopa salt, benserazide, a benserazide prodrug, a benserazide salt, or any combination thereof. According to some embodiments, the DDCI is carbidopa. The DDCI in the first pharmaceutical composition may be the same or different as the DDCI in the second pharmaceutical composition. Further, the levodopa component in each of the first and second pharmaceutical compositions may be the same or different. That is, while according to some embodiments, both the first pharmaceutical composition and the second pharmaceutical composition comprise levodopa, according to other embodiments the first pharmaceutical composition may comprise one type of levodopa component, e.g., a levodopa prodrug and/or a levodopa salt, while the second pharmaceutical composition comprises a different type of levodopa component, e.g., levodopa. It is further noted that the concentration or amount of each component within the first pharmaceutical composition may be different than the concentration or amount of that component within the second pharmaceutical composition.

According to some embodiments the first pharmaceutical composition may be administered by any parenteral administration route, e.g., subcutaneously, transdermally, intradermally, intravenously, intramuscularly, intratracheally, intranasally, intrathecally, intragastrically or intraduodenally. According to some embodiments the first pharmaceutical composition is administered subcutaneously. According to some embodiments, the first pharmaceutical composition is liquid. According to some embodiments, the first pharmaceutical composition is aqueous.

According to some embodiments, the first pharmaceutical composition is administered substantially continuously. According to some embodiments, the first pharmaceutical composition is administered subcutaneously via a designated pump device.

Embodiments of a designated pump may be, for example, any of the pump embodiments disclosed in U.S. Pat. Nos. 62/529,784, 62/576,362, PCT/IB2018/054962, U.S. Pat. Nos. 16/027,804, 16/027,710, 10,463,787, 10,463,572, 10,603,430, 16/685,364, US 2020/0093984, USD 29/655,583, USD 29/655,587, USD 29/655,589, USD 29/655,591, USD 29/655,592, USD 29/655,594, USD 29/655,597, USD 29/723,714 and US 62/851,903, all of which are incorporated herein by reference in their entirety.

According to some embodiments, the method of the invention comprises administering the first pharmaceutical composition at one site, two sites, or three or more sites, wherein the position of the sites may be changed at any appropriate, possibly pre-determined, intervals. Once administered via a specific site, according to some embodiments, the administration via the same site, or the vicinity of that site, may be only after a, possibly predefined, period of time. According to some embodiments, the position of any one of the sites is changed after 12, 24, 36, 48, 60 or 72 hours. According to some embodiments, the position of the site is changed after 4, 5, 6 or 7 days. According to some embodiments, the position of the site is changed after two, three or four weeks. According to some embodiments, the position of the site is changed when required or desired, e.g., according to subjective data received from the patient and/or according to objective data received, e.g., from sensors located at, or in the vicinity of, the injection site(s).

According to some embodiments, the administrated volume and/or the administration rate is identical in all or at least two of the sites. According to other embodiments, the administration rate and/or administrated volume differ from site to site. Each site may be controlled independently or otherwise, all sites may be controlled dependently on one another.

According to some embodiments, the method of the invention comprises subcutaneously administrating the first pharmaceutical composition of the invention over the course of about 5 to about 24 hours or more, for example, from about 5 to about 12 hours or more, from about 7 to about 10 hours or more, or for example, about 8 hours or about 24 hours.

According to some embodiments, the dose of the carbidopa component in the first pharmaceutical composition is between about 10 mg and about 25 mg per administration, between about 10 mg and about 50 mg per administration, between about 10 mg and about 75 mg per administration, between about 12 mg and about 25 mg per administration, between about 12 mg and about 50 mg per administration, between about 12 mg and about 75 mg per administration, between about 15 mg and about 25 mg per administration, between about 15 mg and about 50 mg per administration, between about 15 mg and about 75 mg per administration, between about 25 mg and about 50 mg per administration, between about 25 mg and about 75 mg per administration, between about 50 mg and about 75 mg per administration. According to some embodiments, the dose of the carbidopa component in the first pharmaceutical composition is about 90 mg, for example, administered over the course of about 5 to about 24 hours or more. According to some embodiments, the dose of the carbidopa component in the first pharmaceutical composition is between about 46 mg and about 90 mg per administration. According to some embodiments, the dose of the carbidopa component in the first pharmaceutical composition is about 90 mg, for example, administered over the course of about 24 hours. According to some embodiments, the dose of the carbidopa component in the first pharmaceutical composition is between about 46 mg to about 90 mg, for example, administered over the course of about 24 hours.

According to some embodiments, the dose of the levodopa component in the first pharmaceutical composition is between about 10 mg and about 800 mg per administration, between about 10 mg and about 25 mg per administration, between about 25 mg and about 50 mg per administration, between about 50 mg and about 75 mg per administration, between about 75 mg and about 100 mg per administration, between about 100 mg and about 150 mg per administration, between about 150 mg and about 200 mg per administration, between about 200 mg and about 250 mg per administration, between about 250 mg and about 300 mg per administration, between about 300 mg and about 350 mg per administration, between about 350 mg and about 400 mg per administration, between about 400 mg and about 450 mg per administration, between about 450 mg and about 500 mg per administration, between about 500 mg and 800 mg, between about 600 mg and about 800 mg, between about 700 mg and about 800 mg, or about 720 mg. In certain embodiments, the dose of the levodopa component in the first pharmaceutical composition is between about 370 mg to about 720 mg. In certain embodiments, the dose is administered over the course of about 5 to about 24 (e.g., about 7 to about 10, or about 8 hours, or about 24 hours) hours or more. According to some embodiments, the dose of the levodopa component in the first pharmaceutical composition is about 720 mg, for example, administered over the course of about 24 hours. According to some embodiments, the dose of the levodopa component in the first pharmaceutical composition is between about 370 mg about 720 mg, for example, administered over the course of about 24 hours.

In certain embodiments, the first pharmaceutical composition is administered in an amount to deliver from about 100 to about 200 mg of levodopa and about 12 to about 50 mg of carbidopa to the patient. In certain embodiments, the first pharmaceutical composition is administered in an amount to deliver from about 140 to about 170 mg of levodopa and about 16 to about 24 mg of carbidopa to the patient. In certain embodiments, the dose is administered over the course of about 5 to about 24 (e.g., about 7 to about 10) hours or more. In certain embodiments, the first pharmaceutical composition is administered in an amount to deliver from about 650 mg to about 800 mg, e.g., about 720 mg of levodopa and about 80 mg to about 100 mg, e.g., about 90 mg, carbidopa to the patient over the course of about 24 hours.

According to some embodiments, the method of the invention comprises subcutaneously administrating between about 1 to about 30 ml of the first pharmaceutical composition of the invention over the course of 24 hours. According to some embodiments, the method of invention comprises subcutaneously administrating between about lml to about 2 ml, between about 2 ml to about 3 ml, between about 3 ml to about 4 ml, between about 4 ml to about 5 ml, between about 5 ml to about 6 ml, between about 6 ml to about 7 ml, between about 7 ml to about 8 ml, between about 8 ml to about 9 ml, between about 9 ml to about 10 ml, between about 10 ml to about 1 lml, between about 1 lml to about 12 ml, between about 12 ml to about 13 ml, between about 13 ml to about 14 ml, between about 14 ml to about 15ml between about 15 ml to about 16 ml, between about 16 ml to about 17 ml, between about 17 ml to about 18 ml, between about 18 ml to about 19 ml, between about 19 ml to about 20 ml, between about 20 ml to about 21 ml, between about 21 ml to about 22 ml, between about 22 ml to about 23 ml, between about 23 ml to about 24 ml, between about 24 ml to about 25 ml, between about 25 ml to about 26 ml, between about 26 ml to about 27 ml, between about 27 ml to about 28 ml, between about 28 ml to about 29 ml, between about 29 ml to about 30 ml, of the first pharmaceutical composition over the course of 24 hours. According to some embodiments, the method of the invention comprises subcutaneously administrating about 12 ml of the first pharmaceutical composition of the invention over the course of about 24 hours.

According to some embodiments, the first pharmaceutical composition is administered at a volume of between about lml to about 30 ml per site per day, between about 2 ml to about 20 ml per site per day, between about 3 ml to about 10 ml per site per day, between about 5 ml to about 7 ml per site per day, or about 6 ml per site per day. According to some embodiments, the first pharmaceutical composition is administered at a volume of between about lml to about 2.5 ml per site per day, between about 2.5 ml to about 5.0 ml per site per day, between about 5.0 ml to about 7.5 ml per site per day, between about 7.5 ml to about 10 ml per site per day, between about 10 ml to about 12.5 ml per site per day, between about 12.5 ml to about 15 ml per site per day, between about 15 ml to about 17.5 ml per site per day, between about 17.5 ml to about 20 ml per site per day, between about 20 ml to about 22.5 ml per site per day, between about 22.5 ml to about 25 ml per site per day, between about 25 ml to about 27.5 ml per site per day, between about 27.5 ml to about 30 ml per site per day. According to some embodiments, the first pharmaceutical composition is administered at a volume of about 6 ml per site per day.

It is noted that the administration rate may be constant over the course of 24 hours or may change over the course of 24 hours. For instance, according to some embodiments, there may be a certain rate for high activity/day hours and a different rate for low activity/night hours. The high activity/day hours may be, e.g., about 15, about 16, about 17, about 18 or about 19 hours, while the low activity night hours may be about 9, about 8, about 7, about 6 or about 5 hours, respectively. According to some embodiments, the high activity/day rate is implemented for about 18 hours, while the low activity/night rate is implemented for about 6 hours. According to some embodiments, the high activity/day rate is implemented for about 16 hours, while the low activity/night rate is implemented for about 8 hours. According to some embodiments, the administration rate is at least partially determined by input received from the patient, a caregiver, at least one sensor and the like. According to some embodiments, the administration rate may be elevated when necessary or decreased when necessary according to a predefined pattern that may be set periodically, e.g., by a caregiver or the patient. According to other embodiments, the administration rate may be altered, e.g., elevated or decreased, in an on-line manner, for example, according input received from the patient, a caregiver, or at least one sensor, indicating that a change in administration rate is required or beneficial. For instance, if the patient wishes to rest at a certain point during the day, the rate may be decreased from day to night rate, e.g., by a command provided by the patient. In addition, a caregiver may give a command to the system in view of the patient, e.g., resting during the day. Further, a sensor may alert the system that the patient has gone to sleep (or fallen asleep) and decrease the administration rate accordingly. Sensors may also provide sleep pattern data, allowing the system to be notified in advance of the patient awaking from sleep, and in response, e.g., elevating the administration rate. The patient's monitored condition may also cause the administration rate to be altered, e.g., lapsing into an “off episode” and the like, may cause the administration rate to be raised.

The administration rate may be between about 0.01 mL/site/hour to about 1 mL/site/hour. According to some embodiments, the administration rate is between about 0.01-0.02 mL/site/hour. According to some embodiments, the administration rate is between about 0.02-0.03 mL/site/hour. According to some embodiments, the administration rate is between about 0.03-0.04 mL/site/hour. According to some embodiments, the administration rate is between about 0.04-0.05 mL/site/hour. According to some embodiments, the administration rate is between about 0.05-0.06 mL/site/hour. According to some embodiments, the administration rate is between about 0.06-0.07 mL/site/hour. According to some embodiments, the administration rate is between about 0.07-0.08 mL/site/hour. According to some embodiments, the administration rate is between about 0.08-0.09 mL/site/hour. According to some embodiments, the administration rate is between about 0.09-0.1 mL/site/hour. According to some embodiments, the administration rate is between about 0.1-0.15 mL/site/hour. According to some embodiments, the administration rate is between about 0.15-0.2 mL/site/hour. According to some embodiments, the administration rate is between about 0.2-0.25 mL/site/hour. According to some embodiments, the administration rate is between about 0.25-0.3 mL/site/hour. According to some embodiments, the administration rate is between about 0.3-0.35 mL/site/hour. According to some embodiments, the administration rate is between about 0.35-0.4 mL/site/hour. According to some embodiments, the administration rate is between about 0.4-0.45 mL/site/hour. According to some embodiments, the administration rate is between about 0.45-0.5 mL/site/hour. According to some embodiments, the administration rate is between about 0.5-0.55 mL/site/hour. According to some embodiments, the administration rate is between about 0.55-0.6 mL/site/hour. According to some embodiments, the administration rate is between about 0.6-0.65 mL/site/hour. According to some embodiments, the administration rate is between about 0.65-0.7 mL/site/hour. According to some embodiments, the administration rate is between about 0.7-0.75 mL/site/hour. According to some embodiments, the administration rate is between about 0.75-0.8 mL/site/hour.

According to some embodiments, the administration rate is between about 0.8-0.85 mL/site/hour. According to some embodiments, the administration rate is between about 0.85-0.9 mL/site/hour. According to some embodiments, the administration rate is between about 0.9-0.95 mL/site/hour. According to some embodiments, the administration rate is between about 0.95-1.0 mL/site/hour.

According to some embodiments, the administration rate in the low activity/night hours is between about 0.01-0.15 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.01-0.02 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.02-0.03 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.03-0.04 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.04-0.05 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.05-0.06 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.06-0.07 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.07-0.08 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.08-0.09 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.09-0.1 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.1-0.11 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.11-0.12 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.12-0.13 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.13-0.14 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is between about 0.14-0.15 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is about 0.04 mL/site/hour. According to some embodiments, the administration rate in the low activity/night hours is about 0.08 mL/site/hour.

According to some embodiments, the administration rate in the high activity/day hours is between about 0.15-1.0 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.15-0.2 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.2-0.25 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.25-0.3 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.3-0.35 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.35-0.4 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.4-0.45 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.45-0.5 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.5-0.55 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.55-0.6 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.6-0.65 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.65-0.7 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.7-0.75 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.75-0.8 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.8-0.85 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.85-0.9 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.9-0.95 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.95-1.0 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is about 0.32 mL/site/hour. According to some embodiments, the administration rate in the high activity/day hours is between about 0.32 mL/hour and about 0.64 mL/hour.

As mentioned above, while the low and high rates are referred to as night and day rates, respectively, they may be used irrespective of the time of day; rather, of the condition of the patient and the like, e.g., low activity and high activity. Further, the rate may be altered gradually, and may be set at any appropriate value, not necessarily bound to one particular high rate and one particular low rate.

According to some embodiments, the first composition is administered over the course of about 12 to about 20 hours (e.g., about 18 hours) at a high activity rate and about 4 to about 12 hours (e.g., about 6 hours) at a low activity rate, wherein about 500 mg to about 800 mg (e.g., about 700 mg or about 691.2 mg) levodopa and about 60 mg to about 100 mg (e.g., about 80 mg or about 86.4 mg) is administered over the course of the high activity and about 20 mg to about 40 mg (e.g., about 30 mg or about 28.8 mg) levodopa and about 2 mg to about 5 mg (e.g., about 3 mg or about 3.6 mg) carbidopa is administered over the course of the low activity. According to some embodiments, the high activity rate and/or the low activity rate may be a consecutive time period in the course of 24 hours. According to other embodiments, the high activity rate and/or the low activity rate may be administered at several, non-consecutive time periods over the course of 24 hours.

It is further noted that the administrated volume and/or administration rate may be constant throughout the treatment, or may vary during different hours of the day, between different days, weeks or months of treatment, and the like. According to some embodiments, the patient is monitored, e.g., independently, by a caretaker, or electronically, e.g., by sensors, possibly found in a dedicated device, e.g., a watch-like device, patch-like sensor, the administration pump, and the like. According to such embodiments, the administration volume and/or rate are determined according to data received from such monitoring.

Some embodiments are directed to a method for administering a bolus subcutaneous injection of the first pharmaceutical composition of the invention. According to some embodiments, the bolus injection comprises between about 0.5 to about 2.0 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises between about 0.5 to about 0.75 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises between about 0.75 to about 1.0 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises between about 1.0 to about 1.25 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises between about 1.25 to about 1.5 mL/Kg of the first pharmaceutical composition.

According to some embodiments, the bolus injection comprises between about 1.5 to about 1.75 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises between about 1.75 to about 2.0 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises between about 0.75 to about 1.25 mL/Kg of the first pharmaceutical composition. According to some embodiments, the bolus injection comprises about 1.0 mL/Kg of the first pharmaceutical composition.

The bolus subcutaneous injection may be administered at any time point in relation to any possible continuous subcutaneous administrations, e.g., prior to, during, or after the continuous administration. The bolus subcutaneous injection may be administered at any time point during the day. The bolus subcutaneous injection may be administered once a day, once every two, three, four five or six days, once a week, or more. The bolus subcutaneous injection may be administered when required/desired, according to feedback received from the patient, caretaker, physician, sensors, and the like, and/or according to a predefined regimen. The bolus subcutaneous injection may be administered over between about five minutes to about 40 minutes, between about five minutes to about 10 minutes, between about 10 minutes to 15 minutes, between about 15 minutes to 20 minutes, between about 20 minutes to 25 minutes, between about 25 minutes to 30 minutes, between about 30 minutes to 35 minutes, between about 35 minutes to 40 minutes.

According to some embodiments, the administered dose may be doubled, tripled or more, by using more than one pump, more than one injection site for each pump, and the like.

According to some embodiments, the first pharmaceutical composition is administered for a defined period of time, e.g., days, weeks, months, or years. According to some embodiments, the first pharmaceutical composition is administered endlessly, for the treatment of a chronic condition.

According to some embodiments, the first pharmaceutical composition comprises between about 1% w/v and about 40% w/v of levodopa, a levodopa prodrug, a levodopa salt, or any combination thereof. According to some embodiments, the first pharmaceutical composition comprises between about 1% w/v and about 5% w/v, between about 5% w/v and about 10% w/v, between about 10% w/v and about 15% w/v, between about 15% w/v and about 20% w/v, between about 20% w/v and about 25% w/v, between about 25% w/v and about 30% w/v, between about 30% w/v and about 35% w/v, between about 35% w/v and about 40% w/v, between about 2% w/v and about 10% w/v, between about 4% w/v and about 8% w/v, between about 5% w/v and about 7% w/v, about 6% w/v of levodopa, a levodopa prodrug, a levodopa salt, or any combination thereof.

According to some embodiments, the first pharmaceutical composition comprises between about 0.5% w/v and about 10% w/v of carbidopa, a carbidopa salt, a carbidopa prodrug, or any combination thereof. According to some embodiments, the first pharmaceutical composition comprises between about 0.5% w/v and about 1% w/v, between about 1% w/v and about 1.5% w/v, between about 1.5% w/v and about 2% w/v, between about 2% w/v and about 2.5% w/v, between about 2.5% w/v and about 3% w/v, between about 3% w/v and about 3.5% w/v, between about 3.5% w/v and about 4% w/v, between about 4% w/v and about 4.5% w/v, between about 4.5% w/v and about 5% w/v, between about 5% w/v and about 5.5% w/v, between about 5.5% w/v and about 6% w/v, between about 6% w/v and about 6.5% w/v, between about 6.5% w/v and about 7% w/v, between about 7% w/v and about 7.5% w/v, between about 7.5% w/v and about 8% w/v, between about 8% w/v and about 8.5% w/v, between about 8.5% w/v and about 9% w/v, between about 9% w/v and about 9.5% w/v, between about 9.5% w/v and about 10% w/v, about 0.75% w/v of carbidopa, a carbidopa salt, a carbidopa prodrug, or any combination thereof.

For example, provided herein is a first pharmaceutical composition suitable for parenteral (e.g., subcutaneous) administration, includes about 4-10% by weight levodopa, about 0.5 to about 2% by weight carbidopa, and about 10% to about 20% by weight arginine. Another exemplary first pharmaceutical composition provided herein includes about 6% by weight levodopa, about 0.75% by weight carbidopa, and about 10% to about 20% by weight arginine.

According to some embodiments, the first pharmaceutical composition comprises between about 0.05% w/v and about 2.0% w/v, between about 0.05% w/v and about 0.1% w/v, between about 0.1% w/v and about 0.2% w/v, between about 0.2% w/v and about 0.3% w/v, between about 0.3% w/v and about 0.4% w/v, between about 0.4% w/v and about 0.5% w/v, between about 0.5% w/v and about 0.6% w/v, between about 0.6% w/v and about 0.7% w/v, between about 0.7% w/v and about 0.8% w/v, between about 0.8% w/v and about 0.9% w/v, between about 0.9% w/v and about 1.0% w/v, between about 1% w/v and about 1.1% w/v, between about 1.1% w/v and about 1.2% w/v, between about 1.2% w/v and about 1.3% w/v, between about 1.3% w/v and about 1.4% w/v, between about 1.4% w/v and about 1.5% w/v, between about 1.5% w/v and about 1.6% w/v, between about 1.6% w/v and about 1.7% w/v, between about 1.7% w/v and about 1.8% w/v, between about 1.8% w/v and about 1.9% w/v, between about 1.9% w/v and about 2.0% w/v, between about 0.75% w/v and about 1.25% w/v, about 0.75% w/v, about 0.8% w/v, about 0.85% w/v, about 0.9% w/v, about 0.95% w/v, about 1.0% w/v of an antioxidant or a combination of antioxidants.

According to some embodiments, the antioxidant is selected from the group consisting of ascorbic acid or a salt thereof, a cysteine, such as N-acetyl cysteine, a bisulfite or a salt thereof, glutathione, a tyrosinase inhibitor, a bivalent cation, butylated hydroxy toluene (BHT), beta hydroxy acid (BHA) tocopherol, gentisic acid, tocopherol, tocopherol derivative, thioglycerol, and any combination thereof. According to some embodiments, the antioxidant is ascorbic acid. According to some embodiments, the antioxidant is N-acetyl cysteine (NAC). According to some embodiments, the first pharmaceutical composition comprises a combination of ascorbic acid and NAC. For example, provided herein is a first pharmaceutical composition, suitable for e.g., subcutaneous administration, that includes about 0.1% to about 10% by weight ascorbic acid or a pharmaceutically acceptable salt thereof, about 0.01% to about 1% by weight of a component selected from the group consisting of: NAC, L-cysteine and pharmaceutically acceptable salts thereof; about 2% to about 16% by weight levodopa or an ester thereof; and about 0.6% to about 2% by weight carbidopa or an ester thereof.

According to some embodiments, the first pharmaceutical composition comprises a base. According to some embodiments the base is selected from the group consisting of arginine, NaOH, tris(hydroxymethyl)aminomethane (TRIS), NH₄OH, ethylendiamine, diethylamine, ethanolamine, diethanolamine, meglumine, and any combination thereof. According to some embodiments, the base is arginine.

According to some embodiments, the first pharmaceutical composition comprises between about 5% w/v and about 30% w/v or a base. According to some embodiments, the first pharmaceutical composition comprises between about 5% w/v and about 10% w/v, between about 10% w/v and about 15% w/v, between about 15% w/v and about 20% w/v, between about 20% w/v and about 25% w/v, between about 25% w/v and about 30% w/v, between about 12.5% w/v and 17.5% w/v, or about 15% w/v, or about 15.2% w/v base.

According to some embodiments, the first pharmaceutical composition comprises a surfactant. According to some embodiments, the surfactant is selected from Tween-80, Tween-60, Tween-40, Tween-20, Tween-65, Tween-85, Span 20, Span 40, Span 60, Span 80, Span 85, polyoxyl 35 castor oil (Cremophor EL), polyoxyethylene-660-hydroxystearate (macrogol 660), or Poloxamer 188 (Pluronic® F-68), or any combination thereof. The first pharmaceutical composition of the invention may include between about 0.1 to about 3.0% w/v of a surfactant or combination of two or more surfactants. According to some embodiments, the first pharmaceutical composition comprises between about 0.1 to about 0.2% w/v, between about 0.2 to about 0.3% w/v, between about 0.3 to about 0.4% w/v, between about 0.4 to about 0.5% w/v, between about 0.5 to about 0.6% w/v, between about 0.6 to about 0.7% w/v, between about 0.7 to about 0.8% w/v, between about 0.8 to about 0.9% w/v, between about 0.9 to about 1.0% w/v, between about 1.0 to about 1.5% w/v, between about 1.5 to about 2.0% w/v, between about 2.0 to about 2.5% w/v, between about 2.5 to about 3.0% w/v of a surfactant or combination of two or more surfactants.

The first pharmaceutical composition may further comprise an additional pharmaceutically acceptable excipient, such as N-methylpyrrolidone (NMP), polyvinylpyrrolidone (PVP), propylene glycol, a preservative, a pharmaceutically acceptable vehicle, a stabilizer, a dispersing agent, a suspending agent, an amino sugar, a calcium chelator, protease inhibitors, or any combination thereof. The first pharmaceutical composition of the invention may comprise between about 5.0 to about 80.0% w/v or an additional pharmaceutically acceptable excipient, e.g., a solvent, such as NMP or a buffer or any other co-solvent. For example, provided here in, is a pharmaceutically acceptable first composition that includes about 6% by weight levodopa, about 0.75% by weight carbidopa, about 10% to about 20% by weight arginine, about 0.5% by weight of L-cysteine or NAC, and/or about 0.5% by weight ascorbic acid or a salt thereof. An exemplary pharmaceutical first composition (e.g., formulation A) may include about 6% by weight levodopa, about 0.75% by weight carbidopa, and about 14% to about 16% by weight arginine. Another exemplary pharmaceutical composition may include about 6% by weight levodopa, about 0.75% by weight carbidopa, about 14% to about 16% by weight arginine, about 0.5% ascorbic acid and about 0.5% NAC.

According to some embodiments, the first pharmaceutical composition of the invention comprises between about 5.0 to about 10.0% w/v, between about 10.0 to about 15.0% w/v, between about 15.0 to about 20.0% w/v, between about 20.0 to about 25.0% w/v, between about 25.0 to about 30.0% w/v, between about 30.0 to about 35.0% w/v, between about 35.0 to about 40.0% w/v, between about 40.0 to about 45.0% w/v, between about 45.0 to about 50.0% w/v, between about 50.0 to about 55.0% w/v, between about 55.0 to about 60.0% w/v, between about 60.0 to about 65.0% w/v, between about 65.0 to about 70.0% w/v, between about 70.0 to about 75.0% w/v, between about 75.0 to about 80.0% w/v of a solvent, e.g., NMP, a buffer or any other co-solvent.

According to some embodiments, the first pharmaceutical composition further comprises a buffer. According to some embodiments, the buffer is selected from citrate buffer, citric acid buffer, sodium acetate buffer, acetic acid buffer, tartaric acid buffer, phosphate buffer, succinic acid buffer, Tris buffer, glycine buffer, hydrochloric acid buffer, potassium hydrogen phthalate buffer, sodium buffer, sodium citrate tartrate buffer, sodium hydroxide buffer, sodium dihydrogen phosphate buffer, disodium hydrogen phosphate buffer, tromethamine (TRIS), or any combination thereof. The first pharmaceutical composition may comprise between about 0.1 to about 30.0% w/v of a buffer. According to some embodiments, the first pharmaceutical composition comprises between about 0.1 to about 1.0% w/v, between about 1.0 to about 2.0% w/v, between about 2.0 to about 3.0% w/v, between about 3.0 to about 4.0% w/v, between about 4.0 to about 5.0% w/v, between about 5.0 to about 6.0% w/v, between about 6.0 to about 7.0% w/v, between about 8.0 to about 9.0% w/v, between about 9.0 to about 10.0% w/v, between about 10.0 to about 15.0% w/v, between about 15.0 to about 20.0% w/v, between about 20.0 to about 25.0% w/v, between about 25.0 to about 30.0% w/v of a buffer.

According to some embodiments, the first pharmaceutical compositions further comprises an acid or a base, e.g., in order to provide a composition with a pre-defined pH. According to some embodiments, the acid is selected from HCl, HBr, methanesulfonic acid, ascorbic acid, acetic acid, citric acid, or any combination thereof. According to some embodiments, the base is selected from NaOH, Ca(OH)₂, ammonium hydroxide, arginine, magnesium hydroxide, potassium hydroxide, meglumine, tromethamine (TRIS), triethylamine, diisopropylethylamine, diazabicycloundecene or any combination thereof. The first pharmaceutical compositions may comprise between about 0.1 to about 30.0% w/v of a base or acid. According to some embodiments, the first pharmaceutical composition comprises between about 0.1 to about 1.0% w/v, between about 1.0 to about 2.0% w/v, between about 2.0 to about 3.0% w/v, between about 3.0 to about 4.0% w/v, between about 4.0 to about 5.0% w/v, between about 5.0 to about 6.0% w/v, between about 6.0 to about 7.0% w/v, between about 8.0 to about 9.0% w/v, between about 9.0 to about 10.0, between about 10.0 to about 11.0, between about 11.0 to about 12.0, between about 12.0 to about 13.0, between about 13.0 to about 14.0, between about 14.0 to about 15.0, between about 15.0 to about 16.0, between about 16.0 to about 17.0, between about 17.0 to about 18.0, between about 18.0 to about 19.0, between about 19.0 to about 20.0, between about 20.0 to about 21.0, between about 21.0 to about 22.0, between about 22.0 to about 23.0, between about 23.0 to about 24.0, between about 24.0 to about 25.0, between about 25.0 to about 26.0, between about 26.0 to about 27.0, between about 27.0 to about 28.0, between about 28.0 to about 29.0, between about 29.0 to about 30.0, of a base or acid.

The pH of the first pharmaceutical composition of the invention may be between about 4.5 to about 10 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 4.5 to about 5 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 5 to about 6 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 6 to about 7 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 7 to about 8 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 8 to about 9 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 9 to about 10 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 4.5 to about 5.5 at about 25° C.

According to some embodiments, the pH of the first pharmaceutical compositions is between about 5.5 to about 6.5 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 6.5 to about 7.5 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 7.5 to about 8.5 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 8.5 to about 9.5 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is between about 9.5 to about 10 at about 25° C. According to some embodiments, the pH of the first pharmaceutical compositions is about 9.5 at about 25° C. According to some embodiments, an acid or a base is added to the first pharmaceutical composition in order to provide a composition with a predefined pH value. According to some embodiments, the acid is selected from HCl, HBr, methanesulfonic acid, ascorbic acid, acetic acid, citric acid, or any combination thereof. According to some embodiments, the base is selected from NaOH, arginine, an amine base, any of the bases mentioned herein, and any combination thereof.

According to some embodiments, the second pharmaceutical composition is administered when desired and/or required, e.g., when symptoms from said neurological or movement disorder require such administration, or according to a predefined treatment protocol. The assessment of the timing for administering the second pharmaceutical composition may be performed by a caretaker, a physician, the patient to whom the composition is being administered, or any combination thereof, resulting from consultation and/or joint decision making, and the like. According to some embodiments, a system supported by any type of sensors may provide data for determining the need for administering the second pharmaceutical composition. That data may be delivered to a caretaker, a physician, the patient, or any combination thereof, via any means, such as an electronic device, e.g., a smartphone, dedicated console, tablet, email, dedicated or known application, and the like.

According to some embodiments, the second pharmaceutical composition is administered at predefined times, predefined intervals, or both, set, e.g., according to treatment protocols or according to data received from the patient, caregiver, physician, sensors, and the like. The predetermined times and/or intervals may be reset at any time point, e.g., in view of data received from the patient, caretaker, sensors, physician assessment, and the like.

According to some embodiments, the second pharmaceutical composition is orally administered substantially concurrently with the start of the infusion time course. According to some embodiments, the second pharmaceutical composition is orally administered about 1, 2, 3, 4, or 5 hours after the start of the infusion time course. It is noted that the “start of the infusion time course” may be a daily time, wherein the cycle of the infusion, e.g., when new vials are introduced into the system, when a cartridge is replaced, when an infusion set is replaced, and the like.

According to some embodiments the second pharmaceutical composition is administered up to 20 times a day. According to some embodiments, the second pharmaceutical composition is administered about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 or 12 times a day. According to some embodiments, the second pharmaceutical composition is administered between about 3 and 7 times a day. According to some embodiments, the second pharmaceutical composition is administered between about 4 and 6 times a day. According to some embodiments, the second pharmaceutical composition is administered at a frequency of between about 30 minutes to about 24 hours. According to some embodiments, the second pharmaceutical composition is administered at a frequency of between about 30 minutes to about one hour, between about one hour to two hours, between about two hours to three hours, between about three hours to about four hours, between about four hours to about five hours, between about five hours to about six hours, between about six hours to seven five hours, between about seven hours to about eight hours, between about eight hours to about nine hours, between about nine hours to about 10 hours, between about 10 hours to about 11 hours, between about 11 hours to about 12 hours, between about 12 hours to about 13 hours, between about 13 hours to about 14 hours, between about 14 hours to about 15 hours, between about 15 hours to about 16 hours, between about 16 hours to about 17 hours, between about 17 hours to about 18 hours, between about 18 hours to about 19 hours, between about 19 hours to about 20 hours, between about 20 hours to about 21 hours, between about 21 hours to about 22 hours, between about 22 hours to about 23 hours, between about 23 hours to about 24 hours.

The intervals between one administration to the next may differ as well, depending, e.g., on the patient's/caretaker's/physician's observations and assessment, on data received from any type of appropriate sensor, on a predefined treatment protocol, any combination thereof, and the like.

According to some embodiments, the administered dose of the levodopa component in the second pharmaceutical composition is the same each time it is administered. According to some embodiments, the dose of the levodopa component in the second pharmaceutical composition may differ between different administrations. According to some embodiments, the dose of the levodopa component in the second pharmaceutical composition is between about 10 mg per day and about 3000 mg per day, between about 10 mg per day and about 50 mg per day, between about 50 mg per day and about 100 mg per day, between about 100 mg per day and about 150 mg per day, between about 150 mg per day and about 250 mg per day, between about 250 mg per day and about 350 mg per day, between about 350 mg per day and about 500 mg per day, between about 500 mg per day and about 750 mg per day, between about 750 mg per day and about 1000 mg per day, between about 1000 mg per day and about 1250 mg per day, between about 1250 mg per day and about 1500 mg per day, between about 1500 mg per day and about 1750 mg per day, between about 1750 mg per day and about 2000 mg per day, between about 2000 mg per day and about 2250 mg per day, between about 2250 mg per day and about 2500 mg per day, between about 2500 mg per day and about 2750 mg per day, or between about 2750 mg per day and about 3000 mg per day. According to some embodiments, the dose of the levodopa component in the second pharmaceutical composition is between about 100 mg per day to about 1800 mg per day. According to some embodiments, the dose of the levodopa component in the second pharmaceutical composition is between about 350 mg per day to about 700 mg per day.

It is noted that an administered dose is defined according to the time in which the composition is administered to the patient, and therefore, if several tablets, e.g., 4 tablets, each comprising 100 mg of levodopa are administered to the patient at practically the same time, the administered dose of the levodopa in the second pharmaceutical composition would be considered to be 400 mg in such an instance. Further, the dose per day may consist of several administered doses, not necessarily identical to one another, e.g., a patient may be administered 100 mg at 8am, 200 mg at 10am, 100 mg at 3pm and 75 mg at 7pm, such that the dose of the levodopa component in the second pharmaceutical composition would be considered to be 475 mg per day.

According to some embodiments, the dose of the levodopa component in the second pharmaceutical composition is between about 10 mg and about 500 mg per administration, between about 10 mg and about 25 mg per administration, between about 25 mg and about 50 mg per administration, between about 50 mg and about 75 mg per administration, between about 75 mg and about 100 mg per administration, between about 100 mg and about 150 mg per administration, between about 150 mg and about 200 mg per administration, between about 200 mg and about 250 mg per administration, between about 250 mg and about 300 mg per administration, between about 300 mg and about 350 mg per administration, between about 350 mg and about 400 mg per administration, between about 400 mg and about 450 mg per administration, between about 450 mg and about 500 mg per administration. According to some embodiments, the dose differs between different administrations. According to other embodiments, the dose remains constant for at least two administrations, e.g., over the course of 24 hours, three days, one week, and the like.

In certain embodiments, the dose of the levodopa component in the second pharmaceutical composition is about 50 mg, 75 mg, 100 mg, 125 mg, 150 mg, 200 mg, or 250 mg levodopa, e.g., in an immediate release tablet or capsule. According to some embodiments, the dose of the levodopa component in the second pharmaceutical composition is about 95 mg, about 145 mg, about 195 mg, or about 245 mg levodopa, e.g., in an extended release form, e.g., a tablet or capsule.

As mentioned above, the levodopa component may be levodopa, a levodopa salt, a levodopa prodrug or any combination thereof. According to some embodiments, the levodopa component is levodopa.

According to some embodiments, the dose of the carbidopa component in the second pharmaceutical composition is between about 2.5 mg and about 50 mg per administration, between about 2.5 mg and about 20 mg per administration, between about 2.5 mg and about 25 mg per administration, between about 2.5 mg and about 35 mg per administration, between about 2.5 mg and about 40 mg per administration, between about 15 mg and about 20 mg per administration, between about 15 mg and about 25 mg per administration, between about 15 mg and about 35 mg per administration, between about 15 mg and about 40 mg per administration, between about 15 mg and about 50 mg per administration, between about 20 mg and about 25 mg per administration, between about 20 mg and about 35 mg per administration, between about 20 mg and about 40 mg per administration, between about 20 mg and about 50 mg per administration, between about 25 mg and about 35 mg per administration, between about 25 mg and about 40 mg per administration, between about 25 mg and about 50 mg per administration, between about 35 mg and about 40 mg per administration, between about 35 mg and about 50 mg per administration, between about 40 mg and about 50 mg per administration. According to some embodiments, the dose of carbidopa component in the second pharmaceutical composition comprises 2.5 mg, 18.57 mg, 25 mg, 31.25 mg, 37.5 mg or 50 mg carbidopa.

The second pharmaceutical composition may be in any appropriate oral form, such as a pill, hard or soft capsule, tablet, troches, lozenges, aqueous or oily suspensions, dispersible powders or granules, emulsions, syrups or elixirs. The second pharmaceutical composition may an immediate release form, or any type of controlled release form, such as sustained release, extended release, delayed release, prolonged release, and the like. As noted above, the second pharmaceutical composition may comprise at least two active ingredients, e.g., levodopa and carbidopa. It is noted that each one of the active ingredients in the second pharmaceutical composition may be formulated in a different release form, for instance, the levodopa may be in a controlled release form, while the carbidopa is in an immediate release form, or vice versa.

According to some embodiments, the second pharmaceutical formulation is administered only during high activity/waking hours, e.g., during the day, such that the administration intervals are smaller during high activity/waking hours than during other parts of the day, e.g., low activity/night hours. According to further embodiments, the doses of the second pharmaceutical formulation provided during high activity/waking hours are higher than the doses administered during other parts of the day, e.g., low activity/night hours. According to some embodiments, a dosing regimen over 24 hours is devised and may remain constant for a certain number of days, while, within the same day the regimen may be different based on wakefulness, activity, and the like. According to some embodiments, the dosing regimen may change from day to day, as well as within the same day.

Further embodiments of the invention are directed to

-   -   a first pharmaceutical composition comprising:         -   levodopa, a levodopa salt, a levodopa prodrug, or any             combination thereof; and         -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI             prodrug, or any combination thereof;             and,     -   a second pharmaceutical composition comprising:         -   levodopa, a levodopa salt, a levodopa prodrug;         -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI             prodrug; or any combination thereof,     -   for use as a combination in the treatment of a neurological or         movement disorder, for example, Parkinson's disease, wherein the         first pharmaceutical composition is formulated as a parenteral         composition and the second pharmaceutical composition is         formulated as an oral composition.

Further embodiments of the invention are directed to a kit comprising:

-   -   a first pharmaceutical composition in parenteral form         comprising:         -   levodopa, a levodopa salt, a levodopa prodrug, or any             combination thereof; and         -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI             prodrug, or any combination thereof;     -   a second pharmaceutical composition in oral form comprising:         -   levodopa, a levodopa salt, a levodopa prodrug;         -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI             prodrug; or         -   any combination thereof; and     -   instructions for the concomitant administration of the first         pharmaceutical composition and the second pharmaceutical         composition for the treatment of a neurological or movement         disorder, such as Parkinson's disease.

Further embodiments of the invention are directed to a kit comprising:

-   -   a first pharmaceutical composition in parenteral form         comprising:     -   levodopa, a levodopa salt, a levodopa prodrug, or any         combination thereof; and     -   a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI         prodrug, or any combination thereof; and     -   instructions for the concomitant administration of the first         pharmaceutical composition and a second pharmaceutical         composition for the treatment of a neurological or movement         disorder, such as Parkinson's disease, wherein the second         pharmaceutical composition is provided separately.

Further embodiments of the invention are directed to a method of treating Parkinson's disease in a patient in need thereof, wherein the patient was previously administered a previous form of levodopa other than immediate release carbidopa-levodopa tablets in a ratio of 1:4, and wherein the method comprises:

-   -   converting the patient from the previous form of levodopa to         oral immediate release levodopa-carbidopa 100/25 mg tablets;     -   subcutaneously administering to the patient, over a subcutaneous         infusion time course of at least about 24 hours or more, a first         pharmaceutically acceptable liquid composition comprising         levodopa; and     -   orally administering to the patient, before or during the         subcutaneous infusion time course, at least one oral dosage form         comprising levodopa.

Further embodiments of the invention are directed to a method of treating Parkinson's disease in a patient in need thereof, wherein the patient was previously administered a previous form of levodopa, and wherein the method comprises:

-   -   converting the patient from the previous form of levodopa to an         oral immediate release levodopa-carbidopa form;     -   after said conversion, subcutaneously administering to the         patient, over a subcutaneous infusion time course of at least         about 24 hours or more, a first pharmaceutically acceptable         liquid composition comprising levodopa; and     -   orally administering to the patient, before or during the         subcutaneous infusion time course, at least one oral dosage form         comprising levodopa.

Further embodiments of the invention are directed to a method of treating Parkinson's disease in a patient in need thereof, wherein the patient was previously administered a previous form of levodopa, and wherein the method comprises:

-   -   converting the patient from the previous form of levodopa to an         oral immediate release levodopa form, thus administering an         amount of oral immediate release levodopa to said patient;     -   following said conversion, subcutaneously administering to the         patient, over a subcutaneous infusion time course of at least         about 24 hours or more, a first pharmaceutically acceptable         liquid composition comprising a subcutaneous amount of levodopa,         wherein         -   if the amount of oral immediate release form of levodopa is             higher than the subcutaneous amount of levodopa, the amount             of oral immediate release form of levodopa is reduced by             about the amount of the subcutaneous amount of levodopa and             the patient is administered a remaining amount of oral             immediate release levodopa; and         -   if the amount of oral immediate release form of levodopa is             lower than the subcutaneous amount of levodopa, the patient             is not administered the oral immediate release form of             levodopa except for a morning dose of oral immediate release             levodopa, administered before or during the subcutaneous             infusion time course.

Further embodiments of the invention are directed to a method of treating Parkinson's disease in a patient in need thereof, wherein the patient was previously administered with a previous form of levodopa, and wherein the method comprises:

-   -   converting the patient from the previous form of levodopa to an         oral immediate release levodopa form, thus administering an         initial daily amount of oral immediate release levodopa to said         patient;     -   following said conversion, subcutaneously administering to the         patient, over a subcutaneous infusion time course of at least         about 24 hours or more, a first pharmaceutically acceptable         liquid composition in an amount to deliver about 720 mg of         levodopa to the patient over the course of at least about 24         hours, wherein         -   if the initial daily amount of oral immediate release form             of levodopa is higher than about 700 mg, the amount oral             immediate release form of levodopa is reduced by about 700             mg and the patients is administered with a remaining amount             of oral immediate release levodopa, equal to the initial             daily amount of oral immediate release levodopa minus 700             mg; and         -   if the initial daily amount of amount of oral immediate             release form of levodopa is lower than about 700 mg, the             patient is administered only with a morning dose of oral             immediate release levodopa, administered before or during             the subcutaneous infusion time course.

In certain embodiments of the methods described herein, the concomitant administration of the first composition (parenteral, e.g., subcutaneous administration) and the second composition (e.g., oral tablet) to the patient results in a higher area under the curve (AUC) for levodopa from time 0 to the end of the parenteral, e.g., subcutaneous, infusion as compared to the combined AUC for levodopa in the patient when the first composition and the second composition are not concomitantly administered, wherein the total amount of levodopa administered is the same, whether administered concomitantly or non-concomitantly.

Unless explicitly stated, the method embodiments described herein are not constrained to a particular order or sequence. Additionally, some of the described method embodiments or elements thereof can occur or be performed simultaneously, at the same point in time, or concurrently.

It is appreciated that certain features of the invention may also be provided in combination in a single embodiment. Conversely, various elements of the invention that are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable sub-combination or as suitable in any other described embodiment of the invention. Further, certain features described in the context of various embodiments are not to be considered essential features of those embodiments, unless the embodiment is inoperative without those elements.

Various embodiments and aspects of the present invention as delineated hereinabove and as claimed in the claims section below may be supported by the following examples; however, they are not to be limited by the examples.

EXAMPLES Example 1

A test was run in order to assess the plasma exposure of levodopa (LD) following the coadministration of LD and carbidopa (CD) in both subcutaneous (SC) and oral administrations. Accordingly, results obtained from a combined SC+oral administration were compared to results obtained from SC administration alone and from oral administration alone. An additive plasma exposure and PK profile was expected, i.e., it was expected that the SC+oral coadministration would provide results equal to the additive results of the SC and oral administrations, when each was administered separately.

Methods

16 healthy subjects (18-50 years) were treated in a crossover manner, i.e., sequentially, with a washout period of 6 days between the following two treatments:

Treatment A: A total dose of 180/22.5 mg LD/CD (formulation A) was administered by SC infusion over the course of 8 hours, at a steady infusion rate.

Treatment B: An immediate release (IR) tablet of 100/25 mg LD/CD was administered orally at time 0 h.

Following a 32 hour washout period, the same 16 healthy subjects were administered with LC/CD both orally and subcutaneously according to the following treatment:

Treatment C: A dose of 153.6/19.2 LD/CD (formulation A) was administered by SC infusion over the course of 8 hours, at a steady infusion rate, combined with a single co-administration of an oral IR LD/CD 100/25 mg tablet, 4 hours after the initiation of the infusion. Total LD/CD dose: 253.6/44.2 mg.

Blood samples were collected at the following time points:

Treatment A: 0 (prior to treatment initiation), 0.5 h, 1 h, 2 h, 3 h, 4 h, 5 h, 5.5 h, 6 h, 7 h, 8 h (prior to the end of the infusion).

Treatment B: 0 (prior to treatment initiation), 0.5 h, 1 h, 2 h, 3 h, 4 h.

Treatment C: 0 (prior to treatment initiation), 0.5 h, 1 h, 2 h, 3 h, 4 h, 4.5 h, 5 h, 5.5 h, 6 h, 7 h, 8 h (prior to the end of the infusion).

Results

The normalized AUC₀₋₈ of LD and CD of Treatment C, resulting from the combined SC and oral treatment, as described above, was calculated and compared to the sum of the normalized LD and CD AUCs obtained from Treatment A (AUC₀₋₈ resulting from 8 h SC infusion) and Treatment B (AUC₀₋₄ resulting from one IR oral tablet). The results are presented in the Tables 1 and 2 below.

TABLE 1 Observed .vs. Calculated Ratios of LD AUCs Resulting from SC, Oral, and SC + Oral Treatments 1. Treatment A 3. Combined 4. Treatment C Observed (C) AUC (0-8) 2. Treatment B 1 + 2 AUC (0-8) Additive ID x0.853* AUC (0-4) [Estimated] [Observed] Ratio 1001 2266 + 1327 = 3593 4092 vs. 1.139 1002 2218 + 1434 = 3652 3961 vs. 1.085 1003 2620 + 1752 = 4372 5136 vs. 1.175 1004 1729 +  919 = 2648 3508 vs. 1.325 1005 2031 +  969 = 3000 4105 vs. 1.368 1006 2693 + 1885 = 4578 6325 vs. 1.382 1008 2603 +  986 = 3589 5031 vs. 1.402 1009 1920 + 1167 = 3087 3889 vs. 1.260 1010 2575 + 1375 = 3950 4175 vs. 1.057 1011 3686 + 2658 = 6344 7678 vs. 1.210 1012 2310 + 1419 = 3729 4772 vs. 1.280 1013 3087 + 1799 = 4886 5620 vs. 1.150 1014 2196 + 1426 = 3622 5059 vs. 1.397 1015 2629 + 1812 = 4441 5861 vs. 1.320 1016 2236 + 1837 = 4073 4610 vs. 1.132 Geomean 1.240 Individual Geomean 2412 + 1458 = 3870 4817 vs. 1.245 Group *Treatment A AUC multiplied by 0.853 in order to provide a dose equal to the subcutaneous dose of Treatment C. It is noted in this respect that previous studies (not shown) proved the dose proportionality of subcutaneous levodopa and carbidopa, and therefore, comparison between doses is by linear normalization.

TABLE 2 Observed .vs. Calculated Ratios of CD AUCs Resulting from SC, Oral, and SC + Oral Treatments 1. Treatment A 3. Combined 4. Treatment C Observed (C) AUC (0-8) 2. Treatment B 1 + 2 AUC (0-8) Additive ID x0.853* AUC (0-4) [Estimated] [Observed] Ratio 1001  850 + 256 = 1106  917 vs. 0.829 1002  827 + 290 = 1117  973 vs. 0.871 1003  925 + 266 = 1191 1086 vs. 0.912 1004  773 + 219 =  992 1000 vs. 1.008 1005  942 + 246 = 1188 1181 vs. 0.994 1006  955 + 322 = 1277 1218 vs. 0.954 1008  988 + 349 = 1337 1047 vs. 0.783 1009  657 + 318 =  975  754 vs. 0.773 1010  880 + 322 = 1202  995 vs. 0.828 1011 1231 + 513 = 1744 1358 vs. 0.779 1012  855 + 300 = 1155  868 vs. 0.752 1013 1017 + 459 = 1476 1200 vs. 0.813 1014  770 + 297 = 1067 1152 vs. 1.080 1015 1120 + 252 = 1372 1255 vs. 0.915 1016  859 + 351 = 1210  936 vs. 0.774 Geomean 0.866 Individual Geomean  900 + 309 = 1209 1051 vs. 0.869 Group *Treatment A AUC multiplied by 0.853 in order to provide a dose equal to the subcutaneous dose of Treatment C. It is noted in this respect that previous studies (not shown) proved the dose proportionality of subcutaneous levodopa and carbidopa, and therefore, comparison between doses is by linear normalization.

It was expected that the combined/additive results of Treatments A and B (combined, i.e., added to one another), would be practically the same as the results obtained from Treatment C, which essentially combines Treatments A and B within its treatment regime.

Surprisingly, as presented in the results above, the comparison of the Treatment C normalized AUC₀₋₈, with the sum of the normalized AUCs for Treatments A and B, as described above, demonstrated a higher than expected LD AUC, while, in contrast, the CD AUC for Treatment C was lower than expected.

Specifically, as presented in Table 1, the ratio of the LD normalized AUCs resulting from Treatment C, compared to those obtained in Treatments A+B (addition of both to simulate the SC+oral administration in Treatment C) for each individual was above 1.0, with a mean ratio of 1.245, and a range of from 1.057 to 1.402. Further, as presented in Table 2, the ratio of the CD normalized AUCs resulting from Treatment C, compared to those obtained in Treatments A+B, for most individuals was below 1.0, with a mean ratio of 0.869 and a range of from 0.773 to 1.080.

Thus, surprisingly, the combined SC+oral treatment provides LD levels higher than expected from the addition of the two types of administrations, when each is provided separately. In contrast, the CD levels obtained from the combined SC+oral treatment are lower than expected from the addition of the two types of administrations, when each is provided separately. The low CD results obtained in the combined treatment render the higher than expected LD levels even more surprising—even though the amount of CD is reduced, the amount of LD actually rises, which is opposite than what would have been expected, since generally, the CD inhibits the peripheral metabolism of LD and therefore, the lower the amount of CD, the lower the expected amount of LD would be.

Equivalents

While specific embodiments of the subject invention have been discussed, the above specification is illustrative and not restrictive. Many variations of the invention will become apparent to those skilled in the art upon review of this specification. The full scope of the invention should be determined by reference to the claims, along with their full scope of equivalents, and the specification, along with such variations.

Unless otherwise indicated, all numbers expressing quantities of ingredients, reaction conditions, and so forth used in the specification and claims are to be understood as being modified in all instances by the term “about”. It should be noted that where particular values are described in the description and claims, unless otherwise stated, the term “about” means that an acceptable error range, e.g., up to 5% or 10%, for the particular value should be assumed.

INCORPORATION BY REFERENCE

The entire contents of all patents, published patent applications, websites, and other references cited herein are hereby expressly incorporated herein in their entireties by reference. 

1. A method for treatment of a neurological or movement disorder in a patient in need thereof, said method comprising: parenterally administering to the patient a first pharmaceutical composition comprising: a) levodopa, a levodopa salt, a levodopa prodrug, or any combination thereof; and b) a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug, or any combination thereof; and, concomitantly, orally administering to the patient a second pharmaceutical composition comprising an active agent selected from the group consisting of levodopa, a levodopa salt, a levodopa prodrug, a dopa decarboxylase inhibitor (DDCI), a DDCI salt, a DDCI prodrug, and any combination thereof.
 2. The method according to claim 1, wherein the DDCI is carbidopa, benserazide or any combination thereof.
 3. The method according to claim 1, wherein the DDCI is the first pharmaceutical composition is the same as the DDCI in the second pharmaceutical composition.
 4. The method according to claim 1, wherein the DDCI is the first pharmaceutical composition is different from the DDCI in the second pharmaceutical composition.
 5. The method according to claim 1, wherein the second pharmaceutical composition comprises levodopa and a DDCI.
 6. The method according to claim 1, wherein the DDCI is carbidopa.
 7. The method according to claim 1, wherein said first pharmaceutical composition is administered subcutaneously, transdermally, intradermally, intravenously, intramuscularly, intratracheally, intranasally, intrathecally, intragastrically or intraduodenally.
 8. The method according to claim 1, wherein said first pharmaceutical composition is administered subcutaneously.
 9. The method according to claim 1, wherein said first pharmaceutical composition is administered to said patient in need thereof via one or more sites.
 10. The method according to claim 1, wherein said neurological or movement disorder is Parkinson's disease; secondary parkinsonism, such as drug-induced secondary parkinsonism, neuroleptic induced parkinsonism, postencephalitic parkinsonism, and vascular parkinsonism; motor fluctuations; neurodegenerative disorders; dyskinesia; reduced dopamine levels in the brain; levodopa induced dyskinesia; rapid eye movement sleep behavior disorder (RBD); dystonia; morning akinesia; tremor symptoms, such as essential tremor and drug-induced tremor; myoclonus; chorea, such as drug induced chorea; tics, such as drug induced tics and organic tics; drug induced movement disorder; drug induced akathisia; restless legs syndrome (RLS); stiff-man syndrome; benign shuddering attacks; malignant neuroleptic syndrome; Huntington's disease; Shy-Drager syndrome; brain injury induced conditions, such as carbon monoxide or manganese intoxication; or any combination thereof.
 11. The method according to claim 1, wherein said first pharmaceutical composition is administered substantially continuously.
 12. The method according to claim 1, wherein said second pharmaceutical composition is administered 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 times a day.
 13. The method according to claim 1, wherein said second pharmaceutical composition is administered when symptoms from said neurological or movement disorder require said administration.
 14. The method according to claim 1, wherein the second pharmaceutical composition is administered at predefined times, predefined intervals, or both.
 15. The method according to claim 1, wherein the second pharmaceutical composition is administered more than once, wherein the administered dose is the same at all administrations.
 16. The method according to claim 1, wherein the second pharmaceutical composition is administered more than once, wherein the administered dose differs in at least two administrations.
 17. The method according to claim 1, wherein the second pharmaceutical composition is administered in a dose of between about 25 mg levodopa and about 400 mg levodopa, in each administration. 18-20. (canceled)
 21. The method according to claim 1, wherein the first pharmaceutical composition comprises levodopa, carbidopa, and a base selected from the group consisting of arginine, NaOH, tris(hydroxymethyl)aminomethane (TRIS), and any combination thereof.
 22. The method according to claim 1, wherein the first pharmaceutical composition has a pH in the range of between about 6 to about 10, in the range of between about 8 to about 10, in the range of between about 9 to about 10, in the range of between about 9.1 to about 9.8, or about 9.5.
 23. The method according to claim 1, wherein the first pharmaceutical composition comprises between about 1% w/v and about 40% w/v, between about 1% w/v and about 20% w/v, between about 1% w/v and about 10% w/v, between about 2% w/v and about 8% w/v, between about 4% w/v and about 8% w/v, between about 5% w/v and about 7% w/v, or about 6% w/v of levodopa, a levodopa prodrug, a levodopa salt, or any combination thereof. 24-55. (canceled) 